JP5138726B2 - Matrix type two-dimensional code and manufacturing method thereof - Google Patents

Description

  The present invention relates to a kind of two-dimensional code, and more particularly to a matrix type two-dimensional code formed on a kind of metal surface and a manufacturing method thereof.

  Two-dimensional code is a new message storage and transmission technology, and is widely applied in many fields such as product labels, security protection and electronic commerce. The two-dimensional code is composed of black and white spaced apart figures distributed in a two-dimensional direction according to a certain rule, and records data and messages. In code organization, using the concept of bit stream of 0 and 1 which is the foundation of computer internal logic, character numerical information is displayed using a geometrical form corresponding to some binary numbers, image input equipment or photoelectric Realize automatic information processing through automatic reading of scanning equipment. The general international standard two-dimensional code includes various standards such as PDF417, Data Matrix, Maxi Code, and QR (Quick Response Code) code (registered trademark). Among them, QR code (registered trademark) is the most widely applied, and QR code (registered trademark) has the features of ultra-high speed, omnidirectional (360 degrees) identification, can display kanji effectively, and in many industries Widely applied. QR code (registered trademark) is a square matrix composed of a series of small square information blocks. 0 or 1 is displayed by changing the gray scale of light and dark, QR code (registered trademark) When applying to weapon manufacturing and any mechanical products, the QR code (registered trademark) is expressed using engraving on the metal surface or plastic surface. However, after the surface is engraved, the contrast between light and dark is lower than that of the printed surface, and the QR code (registered trademark) has a high degree of identification difficulty and is likely to be distorted.

  Accordingly, there is a need for a matrix-type two-dimensional code and a method for manufacturing the same that have high stability, high readability, are easy to identify, and can overcome the above-described drawbacks.

  An object of the present invention is to provide a matrix type two-dimensional code that has high stability, high readability, and is easy to identify.

  Another object of the present invention is to provide a method for producing a matrix type two-dimensional code which is easy to identify because the matrix type two-dimensional code to be formed has high stability, high readability.

In order to achieve the above-mentioned object, the present invention provides a kind of matrix type two-dimensional code, which has a square shape and is formed by arranging unit message blocks without gaps according to a certain rule. The white unit message block of the matrix type two-dimensional code is a bright plane formed by die-casting on a metal surface, and the bright plane of each white unit message block forms an inclined surface having the same angle with respect to the horizontal plane. To do. The black unit message block of the matrix type two-dimensional code is formed on a metal surface and is a scattering surface located on the same plane parallel to the horizontal plane.

In order to achieve the above object, the present invention provides a method of manufacturing a matrix type two-dimensional code, which dies a bright plane on a metal surface so as to correspond to each unit message block of the matrix type two-dimensional code. A first step in which a bright plane corresponding to each unit message block forms an inclined surface formed at a same angle with respect to a horizontal plane, and a black unit message block using a laser engraving machine And a second step of forming a scattering surface located on the same plane parallel to the horizontal plane.

  As described above, the matrix type two-dimensional code of the present invention expresses the black and white unit message blocks of the matrix type two-dimensional code by the bright plane and the scattering surface, and has a relatively strong contrast between light and dark. The matrix type two-dimensional code achieves the purpose of having a relatively high stability and readability and being easy to identify.

It is a top view of the matrix type two-dimensional code of the present invention. FIG. 2 is a structural display diagram of a white unit message block of a matrix type two-dimensional code represented by a bright plane in FIG. 1. FIG. 2 is a structure display diagram of a black unit message block of a matrix type two-dimensional code represented by a scattering surface in FIG. 1. It is a flowchart of the manufacturing method of the matrix type two-dimensional code of this invention.

  In order to describe in detail the technical contents, structural features, objects and effects to be achieved of the present invention, the embodiments will be described in detail below in combination with the drawings.

Please refer to FIG. 1 to FIG. The matrix type two-dimensional code 10 of the present invention is formed on a metal surface or a plastic surface. The matrix type two-dimensional code 10 has a square shape, and a plurality of unit message blocks having a square shape arranged in a regular manner without gaps. The unit message block is a black unit or a white unit. Display numerical values. The white unit message block of the matrix type two-dimensional code 10 of the present invention is expressed as a bright plane 11 formed by die-casting on a metal surface, and the bright plane 11 representative of each white unit message block is in each horizontal plane. A constant inclination angle ψ is formed. Of these, ψ is preferably selected between 0 and 45 degrees. The black unit message block of the matrix-type two-dimensional code 10 described above is expressed as a scattering surface 12, and the scattering surface 12 is located on the same plane parallel to the horizontal plane. By expressing the white unit message block of the matrix type two-dimensional code by the light plane 11 and by expressing the black unit message block of the matrix type two-dimensional code by the scattering surface 12, the contrast between light and dark is enhanced and the readability and stability are enhanced. it can.

Please refer to FIG. The manufacturing method of the matrix type two-dimensional code 10 described above includes the following steps;
S001 (first step): A bright plane is formed on the metal surface by die-casting so as to correspond to each unit message block of the matrix type two-dimensional code, and each bright plane corresponding to each unit message block is in each horizontal plane. So that the inclined surfaces have the same angle.
S002 (second step): Using a laser engraving machine, the bright plane at the position corresponding to the black unit message block is removed, and a scattering plane located on the same plane parallel to the horizontal plane is formed.

Specifically, before the step of S001, the auxiliary alignment pattern block 13 is further formed on the metal surface by die casting, and the matrix type two-dimensional code 10 is placed on one side of the auxiliary alignment pattern block 13. The edge of the matrix type two-dimensional code 10 corresponds to the edge of the auxiliary alignment pattern block 13 perpendicularly. The guide of the auxiliary alignment pattern block 13 is convenient for forming a bright plane 11 having a constant inclination by die casting on a metal surface, and the laser engraving machine acquires position information of the matrix type two-dimensional code 10. The scattering plane 12 can be formed by removing the bright plane corresponding to the black unit message block position of the matrix type two-dimensional code accurately and speedily.

  As described above, the matrix type two-dimensional code 10 of the present invention represents a black and white unit message block of the matrix type two-dimensional code 10 by a bright plane and a scattering surface, and has a relatively strong contrast of light and darkness to form. The two-dimensional code 10 is provided with relatively high stability and readability, and the object of simplifying identification is achieved.

10 matrix type two-dimensional code 11 bright plane 12 scattering surface 13 auxiliary alignment pattern block

Claims (3)

The matrix type two-dimensional code has a square shape and unit message blocks arranged without any gaps according to a certain rule. The unit message block is black or white. The white unit message block of the matrix type two-dimensional code is a metal. A bright plane formed by die-casting on the surface, and the bright plane of each white unit message block forms an inclined plane having the same angle with respect to the horizontal plane , and the black unit of the matrix type two-dimensional code The matrix type two-dimensional code, wherein the message block is a scattering surface formed on a metal surface and located on the same plane parallel to a horizontal plane. In the manufacturing method of the matrix type two-dimensional code,
A bright plane is formed on the metal surface by die-casting so as to correspond to each unit message block of the matrix type two-dimensional code, and the bright plane corresponding to each unit message block has the same angle with respect to the horizontal plane. A first step for providing an inclined surface ;
Removing a bright plane at a position corresponding to the black unit message block using a laser engraving machine and forming a scattering plane located on the same plane parallel to the horizontal plane;
A method for producing a matrix-type two-dimensional code, comprising: 3. The method of manufacturing a matrix type two-dimensional code according to claim 2, wherein before the first step, an auxiliary alignment pattern block having a cross shape in a plan view is formed on the metal surface by die casting, and the matrix type two-dimensional code is formed. A code is positioned on one side of the auxiliary alignment pattern block , and a vertical edge of the matrix type two-dimensional code is vertically aligned with a horizontal edge of the auxiliary alignment pattern block. A method of manufacturing a matrix type two-dimensional code, comprising the step of vertically matching a direction edge with a vertical edge of the auxiliary alignment pattern block .

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